KAWASAKI, Japan, March 18 — Toshiba Electronic Devices & Storage Corporation (“Toshiba”) has launched a photovoltaic-output photocoupler, “TLX9920”, in a thin, long-creepage-distance SO6L package, for solid state relays (SSR)[1] in automotive equipment. Volume shipments start today.
Demand is growing for automotive equipment relay units with a longer life, a trend that has led to increased use of SSR instead of mechanical relays. As automotive systems continue to evolve, the shift to SSR is expected to accelerate further.
TLX9920 is suitable for use as a gate driver for the high-voltage power MOSFET used in SSR. Combined with a high-voltage power MOSFET, it can achieve high-voltage and high-current switching that is difficult with photorelays. As SSR have no physical contacts, unlike mechanical relays, contact wear and the need for regular maintenance are eliminated. TLX9920 also complies with AEC-Q101, the automotive electronic component reliability standard.
It is housed in an SO6L package with a creepage distance of over 8mm, which realizes high isolation voltage (BVs=5000Vrms). For example, the IEC 60664-12[2] international standard requires a creepage distance of 5.6mm or more for application in environments with pollution degree 2 and an operating voltage of 400V or more. TLX9920 meets this requirement.
TLX9920 is suitable for application in high-voltage systems and harsh environmental conditions. It can be used in a wide range of switching applications in automotive equipment, energy storage systems (ESS) and industrial power equipment.
Toshiba will continue to contribute to building a safe and sustainable society by developing products for automotive and industrial equipment that enhance reliability and advance technological innovation.
Applications
- Automotive equipment: Battery management systems (BMS), onboard chargers, inverters, etc.
- Industrial equipment: Energy storage systems (ESS)
Features
- Thin and long creepage package: SO6L (3.84×10.0×2.1 (mm))
- Long creepage distance: 8mm (min)
- High isolation voltage: BVS=5000Vrms (min)
- Open voltage: VOC=13.5V (min)
- Short-circuit current: ISC=8μA (min)
- AEC-Q101 qualified
